It is 0.1 seconds.
The frequency of a vibrating body is the number of oscillations it completes in one second. To find the frequency of a vibrating body with a time period of 0.3 seconds, you would calculate the reciprocal of the time period (1/0.3) which equals approximately 3.33 Hz (Hertz). So, the frequency of the vibrating body is 3.33 Hz.
False. The unit of the period of a wave is seconds, not hertz. Period is the time it takes for one complete cycle of the wave, while hertz represents the frequency of the wave, which is the number of cycles per second.
there is no effect of mass on time period because mass and time period are inversely proportional
If you double the frequency of a vibrating object, its period will be halved. The period is the time taken for one complete cycle of vibration, so increasing the frequency means the object completes more cycles in the same amount of time, resulting in a shorter period.
The time period of a vibrating object is the time it takes for the object to complete one full cycle of its vibration. It is the duration between two consecutive identical points in the oscillation pattern of the object. It is often measured in seconds.
Frequency refers to the number of waves that occur in a given period of time. It is typically measured in hertz (Hz), where one hertz represents one wave cycle per second.
If you double the frequency of a vibrating object, the period will be halved. This means that the time it takes for one complete cycle of vibration will be reduced by half.
50. Hertz is the same as cycles per second.
The time taken for a vibrating body to complete one full cycle of vibration is called the period. It is typically measured in seconds.
Frequency is the characteristic of a wave that is measured in hertz. Frequency describes the number of complete cycles of a wave that occur in a specific time period, usually measured in cycles per second (hertz).
Frequency is measured in Hertz. Cycles per second.
The period of a 261 Hertz sound wave is 0.000383 Seconds